/*=============================================================================
    Phoenix V1.0
    Copyright (c) 2001-2002 Joel de Guzman

    Permission to copy, use, modify, sell and distribute this software
    is granted provided this copyright notice appears in all copies.
    This software is provided "as is" without express or implied
    warranty, and with no claim as to its suitability for any purpose.
==============================================================================*/
#ifndef PHOENIX_FUNCTIONS_HPP
#define PHOENIX_FUNCTIONS_HPP

///////////////////////////////////////////////////////////////////////////////
#include "boost/spirit/phoenix/actor.hpp"
#include "boost/spirit/phoenix/composite.hpp"

///////////////////////////////////////////////////////////////////////////////
namespace phoenix {

///////////////////////////////////////////////////////////////////////////////
//
//  function class
//
//      Lazy functions
//
//      This class provides a mechanism for lazily evaluating functions.
//      Syntactically, a lazy function looks like an ordinary C/C++
//      function. The function call looks the same. However, unlike
//      ordinary functions, the actual function execution is deferred.
//      (see actor.hpp, primitives.hpp and composite.hpp for an
//      overview). For example here are sample factorial function calls:
//
//          factorial(4)
//          factorial(arg1)
//          factorial(arg1 * 6)
//
//      These functions are automatically lazily bound unlike ordinary
//      function pointers or functor objects that need to be explicitly
//      bound through the bind function (see binders.hpp).
//
//      A lazy function works in conjunction with a user defined functor
//      (as usual with a member operator()). Only special forms of
//      functor objects are allowed. This is required to enable true
//      polymorphism (STL style monomorphic functors and function
//      pointers can still be used through the bind facility in
//      binders.hpp).
//
//      This special functor is expected to have a nested template class
//      result<A...TN> (where N is the number of arguments of its
//      member operator()). The nested template class result should have
//      a typedef 'type' that reflects the return type of its member
//      operator(). This is essentially a type computer that answers the
//      metaprogramming question "Given arguments of type A...TN, what
//      will be the operator()'s return type?".
//
//      There is a special case for functors that accept no arguments.
//      Such nullary functors are only required to define a typedef
//      result_type that reflects the return type of its operator().
//
//      Here's an example of a simple functor that computes the
//      factorial of a number:
//
//          struct factorial_impl {
//
//              template <typename Arg>
//              struct result { typedef Arg type; };
//
//              template <typename Arg>
//              Arg operator()(Arg n) const
//              { return (n <= 0) ? 1 : n * this->operator()(n-1); }
//          };
//
//      As can be seen, the functor can be polymorphic. Its arguments
//      and return type are not fixed to a particular type. The example
//      above for example, can handle any type as long as it can carry
//      out the required operations (i.e. <=, * and -).
//
//      We can now declare and instantiate a lazy 'factorial' function:
//
//          function<factorial_impl> factorial;
//
//      Invoking a lazy function 'factorial' does not immediately
//      execute the functor factorial_impl. Instead, a composite (see
//      composite.hpp) object is created and returned to the caller.
//      Example:
//
//          factorial(arg1)
//
//      does nothing more than return a composite. A second function
//      call will invoke the actual factorial function. Example:
//
//          int i = 4;
//          cout << factorial(arg1)(i);
//
//      will print out "24".
//
//      Take note that in certain cases (e.g. for functors with state),
//      an instance may be passed on to the constructor. Example:
//
//          function<factorial_impl> factorial(ftor);
//
//      where ftor is an instance of factorial_impl (this is not
//      necessary in this case since factorial is a simple stateless
//      functor). Take care though when using functors with state
//      because the functors are taken in by value. It is best to keep
//      the data manipulated by a functor outside the functor itself and
//      keep a reference to this data inside the functor. Also, it is
//      best to keep functors as small as possible.
//
///////////////////////////////////////////////////////////////////////////////
template <typename OperationT>
struct function {

    function() : op() {}
    function(OperationT const& op_) : op(op_) {}

    actor<composite<OperationT> >
    operator()() const;

    template <typename A>
    typename impl::make_composite<OperationT, A>::type
    operator()(A const& a) const;

    template <typename A, typename B>
    typename impl::make_composite<OperationT, A, B>::type
    operator()(A const& a, B const& b) const;

    template <typename A, typename B, typename C>
    typename impl::make_composite<OperationT, A, B, C>::type
    operator()(A const& a, B const& b, C const& c) const;

#if PHOENIX_LIMIT > 3

    template <typename A, typename B, typename C, typename D>
    typename impl::make_composite<OperationT, A, B, C, D>::type
    operator()(A const& a, B const& b, C const& c, D const& d) const;

    template <typename A, typename B, typename C, typename D, typename E>
    typename impl::make_composite<
        OperationT, A, B, C, D, E
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e
    ) const;

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f
    ) const;

#if PHOENIX_LIMIT > 6

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g
    ) const;

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G, typename H
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g, H const& h
    ) const;

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G, typename H, typename I
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g, H const& h, I const& i
    ) const;

#if PHOENIX_LIMIT > 9

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G, typename H, typename I, typename J
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g, H const& h, I const& i, J const& j
    ) const;

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G, typename H, typename I, typename J,
        typename K
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g, H const& h, I const& i, J const& j,
        K const& k
    ) const;

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G, typename H, typename I, typename J,
        typename K, typename L
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K, L
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g, H const& h, I const& i, J const& j,
        K const& k, L const& l
    ) const;

#if PHOENIX_LIMIT > 12

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G, typename H, typename I, typename J,
        typename K, typename L, typename M
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g, H const& h, I const& i, J const& j,
        K const& k, L const& l, M const& m
    ) const;

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G, typename H, typename I, typename J,
        typename K, typename L, typename M, typename N
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M, N
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g, H const& h, I const& i, J const& j,
        K const& k, L const& l, M const& m, N const& n
    ) const;

    template <
        typename A, typename B, typename C, typename D, typename E,
        typename F, typename G, typename H, typename I, typename J,
        typename K, typename L, typename M, typename N, typename O
    >
    typename impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M, N, O
    >::type
    operator()(
        A const& a, B const& b, C const& c, D const& d, E const& e,
        F const& f, G const& g, H const& h, I const& i, J const& j,
        K const& k, L const& l, M const& m, N const& n, O const& o
    ) const;

#endif
#endif
#endif
#endif

    OperationT op;
};

///////////////////////////////////////////////////////////////////////////////
//
//  function class implementation
//
///////////////////////////////////////////////////////////////////////////////
template <typename OperationT>
inline actor<composite<OperationT> >
function<OperationT>::operator()() const
{
    return actor<composite<OperationT> >(op);
}

//////////////////////////////////
template <typename OperationT>
template <typename A>
inline typename impl::make_composite<OperationT, A>::type
function<OperationT>::operator()(A const& a) const
{
    return impl::make_composite<OperationT, A>::composite_type
    (
        op,
        as_actor<A>::convert(a)
    );
}

//////////////////////////////////
template <typename OperationT>
template <typename A, typename B>
inline typename impl::make_composite<OperationT, A, B>::type
function<OperationT>::operator()(A const& a, B const& b) const
{
    return impl::make_composite<OperationT, A, B>::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b)
    );
}

//////////////////////////////////
template <typename OperationT>
template <typename A, typename B, typename C>
inline typename impl::make_composite<OperationT, A, B, C>::type
function<OperationT>::operator()(A const& a, B const& b, C const& c) const
{
    return impl::make_composite<OperationT, A, B, C>::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c)
    );
}

#if PHOENIX_LIMIT > 3
//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D
>
inline typename impl::make_composite<
    OperationT, A, B, C, D
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d)
    );
}

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e)
    );
}

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f)
    );
}

#if PHOENIX_LIMIT > 6

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g)
    );
}

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G, typename H
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G, H
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g, H const& h
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g),
        as_actor<H>::convert(h)
    );
}

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G, typename H, typename I
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G, H, I
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g, H const& h, I const& i
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g),
        as_actor<H>::convert(h),
        as_actor<I>::convert(i)
    );
}

#if PHOENIX_LIMIT > 9

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G, typename H, typename I, typename J
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G, H, I, J
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g, H const& h, I const& i, J const& j
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g),
        as_actor<H>::convert(h),
        as_actor<I>::convert(i),
        as_actor<J>::convert(j)
    );
}

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G, typename H, typename I, typename J,
    typename K
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G, H, I, J, K
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g, H const& h, I const& i, J const& j,
    K const& k
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g),
        as_actor<H>::convert(h),
        as_actor<I>::convert(i),
        as_actor<J>::convert(j),
        as_actor<K>::convert(k)
    );
}

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G, typename H, typename I, typename J,
    typename K, typename L
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G, H, I, J, K, L
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g, H const& h, I const& i, J const& j,
    K const& k, L const& l
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K, L
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g),
        as_actor<H>::convert(h),
        as_actor<I>::convert(i),
        as_actor<J>::convert(j),
        as_actor<K>::convert(k),
        as_actor<L>::convert(l)
    );
}

#if PHOENIX_LIMIT > 12

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G, typename H, typename I, typename J,
    typename K, typename L, typename M
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g, H const& h, I const& i, J const& j,
    K const& k, L const& l, M const& m
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g),
        as_actor<H>::convert(h),
        as_actor<I>::convert(i),
        as_actor<J>::convert(j),
        as_actor<K>::convert(k),
        as_actor<L>::convert(l),
        as_actor<M>::convert(m)
    );
}

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G, typename H, typename I, typename J,
    typename K, typename L, typename M, typename N
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M, N
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g, H const& h, I const& i, J const& j,
    K const& k, L const& l, M const& m, N const& n
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M, N
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g),
        as_actor<H>::convert(h),
        as_actor<I>::convert(i),
        as_actor<J>::convert(j),
        as_actor<K>::convert(k),
        as_actor<L>::convert(l),
        as_actor<M>::convert(m),
        as_actor<N>::convert(n)
    );
}

//////////////////////////////////
template <typename OperationT>
template <
    typename A, typename B, typename C, typename D, typename E,
    typename F, typename G, typename H, typename I, typename J,
    typename K, typename L, typename M, typename N, typename O
>
inline typename impl::make_composite<
    OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M, N, O
>::type
function<OperationT>::operator()(
    A const& a, B const& b, C const& c, D const& d, E const& e,
    F const& f, G const& g, H const& h, I const& i, J const& j,
    K const& k, L const& l, M const& m, N const& n, O const& o
) const
{
    return impl::make_composite<
        OperationT, A, B, C, D, E, F, G, H, I, J, K, L, M, N, O
    >::composite_type
    (
        op,
        as_actor<A>::convert(a),
        as_actor<B>::convert(b),
        as_actor<C>::convert(c),
        as_actor<D>::convert(d),
        as_actor<E>::convert(e),
        as_actor<F>::convert(f),
        as_actor<G>::convert(g),
        as_actor<H>::convert(h),
        as_actor<I>::convert(i),
        as_actor<J>::convert(j),
        as_actor<K>::convert(k),
        as_actor<L>::convert(l),
        as_actor<M>::convert(m),
        as_actor<N>::convert(n),
        as_actor<O>::convert(o)
    );
}

#endif
#endif
#endif
#endif

///////////////////////////////////////////////////////////////////////////////
}   //  namespace phoenix

#endif
